Your search keyword '"Srinivasarao Meneni"' showing total 3 results

1. Conformation-Specific Recognition of Carcinogen−DNA Adduct in Escherichia coli Nucleotide Excision Repair

Author

Yue Zou, Steven M. Shell, Srinivasarao Meneni, and Bongsup P. Cho

Subjects

education.field_of_study, Magnetic Resonance Spectroscopy, Base Sequence, DNA Repair, biology, Base pair, Chemistry, Stereochemistry, Population, Molecular Conformation, Active site, General Medicine, Toxicology, Adduct, DNA Adducts, chemistry.chemical_compound, DNA adduct, Carcinogens, Escherichia coli, biology.protein, Thermodynamics, education, Conformational isomerism, DNA, Nucleotide excision repair

Abstract

We report a systematic and quantitative structure-function relationship study of the major N-[deoxyguanosin-8-yl]-2-aminofluorene adduct (AF) derived from the prototype carcinogen 2-aminofluorene and its derivatives. The AF adduct is known to exist in two distinct conformational motifs, depending upon the location of the hydrophobic fluorine moiety: major groove binding "B type" (B) conformation (AF-dG anti ) and base-displaced "stacked" (S) conformation (AF-dG syn ). The AF-induced S/B conformational heterogeneity is sequence-dependent and follows a typical two-site dynamic chemical exchange. The population of S conformation decreases in the order of 3'-G > A » C > T, indicating the importance of the purine flanking bases in promoting the stacking structure. Line-shape analysis showed that the S/B interconversion energy barriers (ΔG ‡ ) are in the narrow 14-16 kcal/mol range. The energy differences of the two conformers are relatively small (

Published

2006

2. Induced Circular Dichroism Characteristics as Conformational Probes for Carcinogenic Aminofluorene−DNA Adducts

Author

Bongsup P. Cho, Fengting Liang, and Srinivasarao Meneni

Subjects

Models, Molecular, Fluorenes, Circular dichroism, Binding Sites, Chemistry, Stereochemistry, Circular Dichroism, General Medicine, Nuclear magnetic resonance spectroscopy, Toxicology, Adduct, DNA Adducts, chemistry.chemical_compound, Crystallography, Duplex (building), Carcinogens, Nucleic Acid Conformation, Nuclear Magnetic Resonance, Biomolecular, Conformational isomerism, Carcinogen, DNA

Abstract

We report novel induced circular dichroism (ICD) characteristics for probing the conformational heterogeneity induced by the arylamine carcinogen 2-aminofluorene, namely, B type (B), stacked (S), and wedged (W) conformers. CD experiments were conducted with five different aminofluorene-modified DNA duplexes (I-V). An intense positive ICD was observed for the W conformeric I in the 290-360 nm range (ICD(290)(-)(360nm)). This was in contrast to the negative ICD(290)(-)(360nm) exhibited by the mostly B conformeric V (17% S/83% B). Duplex IV, which adopts an approximately equal mixture of S (53%) and B (47%), exhibited low ellipticities along the baseline. The magnitude of the positive ICD for I was significantly greater than that observed for II (70% S/30% B). While the ICD(290)(-)(360nm) of the W conformeric III showed no changes in intensity with increasing temperature from 10 to 35 degrees C, dramatic changes were observed for I across the same temperature range. Dynamic (19)F NMR results revealed that I exists in an 85:15 mixture of W and S/B conformers. The dramatic intensity changes observed for I are consistent with the presence of a W/B heterogeneity because of its susceptibility to result in a large difference on the magnitude of the ICD(290)(-)(360nm). In conclusion, the sign and magnitude of the ICD(290)(-)(360)(nm) are sensitive conformational markers for studying arylamine-induced conformational heterogeneity. The temperature-dependent ICD(290)(-)(360nm) data, coupled with (19)F NMR spectroscopy, provide valuable information about conformational distribution and dynamics, which are important factors that affect mutational outcomes.

Published

2006

3. Conformation-Specific Recognition of Carcinogen−DNA Adduct in Escherichia coliNucleotide Excision Repair.

Author

Srinivasarao Meneni, Steven M. Shell, Yue Zou, and Bongsup P. Cho

Subjects

*ESCHERICHIA, *FLUORINE, *NUCLEOTIDES, *DNA adducts

Abstract

We report a systematic and quantitative structure−function relationship study of the major N-deoxyguanosin-8-yl-2-aminofluorene adduct (AF) derived from the prototype carcinogen 2-aminofluorene and its derivatives. The AF adduct is known to exist in two distinct conformational motifs, depending upon the location of the hydrophobic fluorine moiety:  major groove binding “B type” (B) conformation (AF-dGanti) and base-displaced “stacked” (S) conformation (AF-dGsyn). The AF-induced S/B conformational heterogeneity is sequence-dependent and follows a typical two-site dynamic chemical exchange. The population of S conformation decreases in the order of 3‘-G > A C > T, indicating the importance of the purine flanking bases in promoting the stacking structure. Line-shape analysis showed that the S/B interconversion energy barriers (G) are in the narrow 14−16 kcal/mol range. The energy differences of the two conformers are relatively small (<0.5 kcal/mol), suggesting a possibility for a facile adduct conformation switch in the active site of a polymerase. The S/B equilibrium modulates the efficiency of Escherichia coliUvrABC-based nucleotide excision repair (NER) in a conformation-specific manner. The 19F NMR/NER results indicate greater repair susceptibility for the base-displaced S conformer, which lacks a Watson−Crick base pair at the lesion site. These findings represent the first of its kind quantitative structure−function work relating NER activity to a specific adduct conformer and will lead to a better understanding of how bulky DNA adducts are accommodated by the repair protein. [ABSTRACT FROM AUTHOR]

Published

2007